JP7449094B2 - Parameter configuration method and display device and display apparatus using the method - Google Patents

Description

This application claims priority based on a Chinese patent application filed on March 4, 2019 with application number 2019101603954 and the title of the invention is "Parameter configuration method and display device and display apparatus using the method". , the contents of which are fully incorporated into this application.

[Technical field]
The present invention relates to the technical field of display control, and specifically relates to a parameter configuration method, a display device using the method, and a display apparatus.

With the development of display technology, people have increasingly higher requirements for image quality, but the most important point is that as the image resolution increases, it becomes more and more difficult to display on a single independent display. That's true. Specifically, as the resolution of an image increases, it is usually necessary to increase the size of the display screen, which tends to reduce the product yield of the display screen. Therefore, multiple display devices with low resolution are typically connected and assembled together to form a display screen with high resolution.

If the display devices are connected in a different order, the display data of each display device is displayed in a different order. Therefore, when text or images are displayed, the host device and each display device transmitting the text or images must identify the connection order of each display device and the content displayed on each display device, so that No display errors occur.

Traditional order identification or configuring each display device often requires additional configuration modules, increasing manufacturing costs and making it difficult to change the order between each display device once determined. I can't.

In view of the above, embodiments of the present invention provide a parameter configuration method, a display device using the method, and a display apparatus, in which a host device encodes a configuration type into an image and then transmits it to a cascaded display device. , thereby allowing the display device to adjust the device number or device parameters according to the configuration type.

According to a first aspect of embodiments of the present invention, there is provided a parameter configuration method for use in a plurality of cascaded display devices, the parameter configuration method comprising: a first stage of the display device having an image transmission channel; In receiving the image data provided from the host device via the host device, if the image data includes configuration information, the display devices in each stage other than the display device in the first stage each receiving image data provided from said display device in a previous stage; said display devices in each stage respectively processing the received image data; and said display device in at least one stage obtaining image data by said processing. configuring parameters based on the configuration information.

Preferably, before the step in which the display devices at each stage process the received image data, the parameter configuration method further includes, in the display devices at each stage, processing data specified in the currently received image data. is included, and if it is included, the display device of the main stage processes it based on the image data received this time, and if it is not included, the display device of the main stage is reset to an initial state, This includes waiting for the next time to receive image data.

Preferably, for each stage of said display device, said specified data is identifiable unencrypted data.

Preferably, the image data provided from the image transmission channel includes a plurality of groups of row data corresponding to each row of pixel units, and the specified data corresponds to a first group of the rows in the plurality of groups of row data. The configuration information is present in the row data of a second group among the row data of the plurality of groups.

Preferably, the step of processing the received image data by the display devices of each stage is such that the display devices of each stage obtain information regarding a configuration type from the received image data, and the display device of each stage obtains information regarding a configuration type from the received image data, and the configuration type 1 configuration type or a second configuration type, and if the configuration type obtained by the display device of the main stage is the first configuration type, the display device of the main stage updates the received image data; providing the image data after the image data to the display device in the subsequent stage, and when the configuration type acquired by the display device in the main stage is a second configuration type, the display device in the main stage provides the received image data to the display device in the main stage; The information is transmitted to the display device at the subsequent stage.

Preferably, when the configuration type obtained by the display device of the main stage is a first configuration type, the display device of the main stage updates the received image data, and the updated image data is used as the image data of the subsequent stage. The step of transmitting to a display device includes configuring number information for the display device in the main stage based on the received image data in the display device in the main stage, and generating number information for the display device in the subsequent stage. and generating image data to be provided to the subsequent display device based on number information for the subsequent display device.

Preferably, the step of generating image data to be provided to the subsequent display device based on number information for the subsequent display device includes acquiring image data to be provided to the subsequent display device. , converting the number information for the display device in the subsequent stage into a data packet, and encrypting the data packet.

Preferably, when the configuration type obtained by the display device of the main stage is a second configuration type, the step of transmitting the image data received by the display device of the main stage to the display device of the subsequent stage comprises: determining whether a second configuration type is matched with the display device of the main stage, and if matched, configuring display state information of the display device of the main stage based on the received image data; Including further.

According to a second aspect of an embodiment of the invention, in a receiving module for receiving image data provided from a host device or a preceding display device via an image transmission channel, the image data includes a configuration. A display device comprising a receiving module, a processing module for processing the received image data, and a configuration module for realizing a parameter configuration based on the configuration information obtained by processing, in which information is included. I will provide a.

Preferably, the display device further includes a detection module for detecting whether specified data is included in the image data received this time, and if it is included, performs processing based on the image data received this time. If not, the display device is reset to its initial state and waits to receive image data next time.

Preferably, the specified data is identifiable unencrypted data.

Preferably, the image data provided from the image transmission channel includes a plurality of groups of row data corresponding to each row of pixel units, and the specified data corresponds to a first group of the rows in the plurality of groups of row data. The configuration information is present in the row data of a second group among the row data of the plurality of groups.

Preferably, the processing module obtains information regarding configuration types from the received image data, and the configuration types include at least a first configuration type or a second configuration type.

Preferably, when the configuration type is a first configuration type, the configuration module configures number information for the display device in the main stage based on the received image data, and configures number information for the display device in the subsequent stage. and generates image data to be provided to the subsequent display device based on the number information for the subsequent display device.

Preferably, the configuration module converts number information for the subsequent display device into a data packet and encrypts the data packet so as to obtain image data to be provided to the subsequent display device.

Preferably, if the configuration type is a second configuration type, the configuration module determines whether the second configuration type is matched with the display device of the main stage, and if matched, the configuration module determines whether the second configuration type is matched with the display device of the main stage, and if matched, the configuration module determines whether the second configuration type is matched with the display device of the main stage, and if matched, The display state information of the display device of the main stage is configured based on the image data of the main stage, and the received image data is transmitted to the display device of the latter stage, and if there is no matching, the received image data is transmitted to the display device of the latter stage. transmitting to the display device;

According to a third aspect of embodiments of the present invention, there is provided a display device including a display screen formed by a plurality of the above display devices connected in series.

A parameter configuration method according to an embodiment of the present invention, a display device using the method, and a display apparatus have the following advantageous effects.

The host device encrypts the configuration type into image data, transmits it to the cascaded display device via an image transmission channel, and the cascaded device decrypts the image data to obtain the configuration type, and the configuration type Adjust the device number or device parameters based on the Compared with the parameter configuration method in the prior art, the manufacturing cost of the display device can be reduced, and the number and display state of each device cascaded by the host device can be changed. Additionally, configuration parameters can be transmitted in the video cycle of the high-speed bus, allowing faster and more accurate device configuration.

Further features and aspects of the disclosure will become apparent from the following detailed description of exemplary embodiments with reference to the accompanying drawings.

The drawings, which are included in and constitute a part of the specification, illustrate example embodiments, features and aspects of the disclosure, and serve, together with the specification, to explain the principles of the disclosure.

FIG. 1 is a schematic block diagram illustrating a display device according to an embodiment of the present invention. FIG. 2 is a flowchart illustrating a parameter configuration method according to an embodiment of the invention. FIG. 3 is a schematic block diagram illustrating image transmission between a host device and a display device according to an embodiment of the invention. FIG. 4 is a schematic block diagram illustrating the structure of number types according to an embodiment of the invention. FIG. 5 is a schematic block diagram showing the information structure of a display state according to an embodiment of the present invention. FIG. 6 is a schematic structural diagram showing a display device according to an embodiment of the present invention.

Various illustrative examples, features, and aspects of the disclosure will now be described in detail with reference to the accompanying drawings. The same reference numbers in the drawings indicate elements having the same or similar functions. Although various aspects of the embodiments are illustrated in the drawings, the drawings are not necessarily drawn to scale, unless indicated otherwise.

Here, the word "exemplary" means "serving as an example, example, or illustration." Any embodiment described herein as "exemplary" is not to be construed as superior or better than other embodiments.

In addition, numerous specific details are set forth in the specific embodiments below to better explain the present disclosure. Those skilled in the art should understand that this disclosure may be practiced without some of the specific details. In some instances, methods, means, elements, and circuits that are well known to those skilled in the art have not been described in detail to emphasize the subject matter of the present disclosure.

FIG. 1 shows a schematic block diagram of a display device according to an embodiment of the invention. The display device 100 includes a plurality of display devices arranged in an array (hereinafter, each display device is respectively marked as a display device D), and the plurality of display devices D are physically cascaded and/or logically cascaded. For example, each display device D is connected by an image transmission channel (as indicated by the arrow line in the figure).

As a specific example, as shown in FIG. 1, each display device D is cascade-connected row by row, and the host device 200 divides display data such as images and videos according to each display device D, and divides display data such as images and videos according to each display device D. According to the cascade connection order of the devices D, the divided display data is displayed on the corresponding display device D in order. Hereinafter, in order to specifically explain the embodiments of the present invention, display devices D0 to D8 arranged in a 3×3 array and cascade-connected (respectively, display devices from the first stage to the ninth stage) will be described. ) is a specific example of a plurality of display devices D.

If necessary, each display device D may include a device having a display function, such as a cathode ray tube (CRT), digital light processing (DLP), liquid crystal display (LCD), or light emitting diode. (light emitting diode, LED), organic light emitting diode (OLED), quantum dot light emitting diode (QLED), MircoLED, MiniLED, etc., but are not limited to these display devices. .

In this embodiment, each display device D may be the same, for example, may have the same structure, the same configuration, the same use, etc. Of course, embodiments of the invention are not limited thereto, and each display device may be different or at least partially different, e.g., displays with different structures, configurations, etc., as appropriate. You may also select a device. When in use, the position of the display device in different positions can be arbitrarily adjusted to achieve normal display.

Although a 3×3 array is described as an example in FIG. 1, the structure of the display device according to the embodiment of the present invention is not limited to this, and the number of display devices, array arrangement method, grouping method, and connection topology may vary depending on the number of display devices, array arrangement method, grouping method, and connection topology. It should be understood by those skilled in the art that it can be changed arbitrarily depending on the situation, and of course that the corresponding division of data can also be changed.

2 and 3 are a flowchart illustrating a parameter configuration method and a schematic block diagram illustrating image transmission between a host device and a display device according to an embodiment of the invention. For convenience of explanation, the display device D0 and the display device D1 will be described as examples in FIG. 3. Hereinafter, a parameter configuration method according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

The parameter configuration method is used by a host device for parameter configuration of a plurality of cascaded display devices, and the parameter configuration method is executed on each of the display devices. As shown in FIG. 2, the parameter configuration method specifically includes the following steps.

In step S101, at least one image data including configuration information is received via an image transmission channel.

In this embodiment, the first stage display device receives image data provided from the host device through an image transmission channel, the image data includes configuration information, and each stage other than the first stage display device receives image data provided by the host device through an image transmission channel. Each of the display devices receives image data provided from the preceding display device.

Referring to FIG. 3, the host device 200 encapsulates configuration information into data packets and encrypts the data packets according to a preconfigured encryption algorithm to form images or videos with a specific order, and then It is transmitted to the display device D0 via the image transmission channel. For example, host device 200 encapsulates configuration information into a 512-bit data packet, encrypts it with SHA-256, generates a 256-bit hash value, and converts the data packet and hash value into an image or video. , to the display device D0 in video cycles of the high-speed bus according to a preconfigured transmission protocol.

Examples of transmission protocols include current or future video/audio transmission protocols such as Video Graphics Array (VGA), Digital Visual Interface (DVI), High Definition Multimedia Interface, HDMI (registered trademark)), Display Port (DP), V-by-one, etc., but are not limited to these.

Furthermore, SHA (Secure Hash Algorithm) is a family of cryptographic hash functions and secure hash algorithms certified by FIPS that can be used to generate fixed-length strings (also called message digests) that correspond to digital messages. It is an algorithm that can calculate SHA-1, SHA-224, SHA-256, SHA-384 and SHA-512.

Note that the security encryption method in the embodiment of the present invention is not limited to the above embodiment, and those skilled in the art can select an appropriate encryption algorithm according to the specific situation.

In step S102, each stage of display devices processes the received image data to obtain configuration information. For example, the display device at each stage can decode and analyze the received image data, thereby obtaining configuration information in the image data.

In step S103, at least one display device realizes a parameter configuration based on the configuration information obtained through the processing.

Furthermore, the parameter configuration method detects whether specified data is included in the image data received this time in the display device of each stage, and if it is included, the display device of the main stage is processed based on the currently received image data, and if it is not included, the display device of the main stage resets to an initial state and waits for receiving image data next time.

In this embodiment, the host device 200 transmits identifiable unencrypted data through an image transmission channel, which is called a blind channel. The blind channel must be constantly monitored before the display device D at each stage decodes the received image data. If the blind channel detects that the image data received this time includes specified data, the display device D and the host device 200 are matched with each other, and the display device D performs processing based on the image data received this time. If it is not included, the display device D resets to the initial state and waits to receive image data next time. Furthermore, when the display device D and the host device 200 are being matched, the display device D and the host device 200 are kept in the matching state after one blind track matching is performed, and the display device D and the host device 200 are kept in the matching state, If this occurs, display device D ends matching and waits for the next blind track matching.

After blind matching is performed on the display devices D at each stage, the received image is decoded using SHA-256, and configuration type information is obtained from the image data. If the decoding is successful and the configuration type is matched with the display device D, parse the configuration type to obtain the parameters of the data packet and complete the configuration of the display device based on these parameters.

In this embodiment, the image data provided from the image transmission channel includes pixel units of each row and corresponding row data of a plurality of groups, and the designated data is the pixel unit of the first group of the row data of the plurality of groups. The configuration information is present in the row data of a second group in the row data of the plurality of groups.

Further, the configuration type includes at least a first configuration type (for example, a number type configuration) or a second configuration type (for example, a display state configuration), and the configuration type acquired by the main display device D is the first configuration type. If so, the display device D at the main stage updates the received image data and provides the updated image data to the display device at the subsequent stage. If the configuration type acquired by the display device D at the main stage is the second configuration type, the display device D at the main stage transmits the received image data to the display device D at the subsequent stage.

4 and 5 are schematic block diagrams showing the structure of number types and the structure of display state information, respectively, according to an embodiment of the present invention. Similarly, for convenience of explanation, the display device D0 and the display device D1 will be described as examples in FIGS. 4 and 5.

Regarding the number type configuration, the main-stage display device first blocks the current iconography from being transmitted to the subsequent-stage display device, performs blind channel detection on the received image data, and checks if the blind channel is matched. If so, decode the image data, number the main display device based on the configuration type of the image data, generate a new number for the subsequent display device, and decode the new image data based on the new number. , and then transmits new image data to a downstream display device.

As shown in FIG. 4, the display device D0 receives the image data provided from the host device, blocks the current image data from being transmitted subsequently to the display device D1, and sets a blind channel for the image data. After detection is performed and the blind channel is matched, the image data is decoded. If the blind channel is successfully matched and the image data is successfully decoded, the display device D0 obtains the configuration type of the image data. A number is assigned to the main stage display device (ie, display device D0) based on the configuration type number, and a new number corresponding to the subsequent stage display device (ie, display device D1) is generated. Encapsulate the new number and encrypt it according to the preconfigured encryption algorithm to generate new image data, transmit the new image data to the display device D1, and the display device D1 repeats the above steps to display the main stage. Perform number configuration on devices.

Regarding the configuration of display state information, each stage display device needs to transmit image data including the configuration type to a subsequent stage display device so that the image data including the configuration type is not lost.

As shown in FIG. 5, the display device D0 receives image data provided from the host device, performs blind channel detection on the image data, and decodes the image data when the blind channel is matched. . If the blind channel is successfully matched and the image data is successfully decoded, the display device D0 obtains the configuration type of the image data. Here, the blind channel matching and image decoding method is the same as the embodiment shown in FIG. The display device D0 determines whether its configuration type matches the display device at the main stage. If the matching is successful, configure display state information (i.e., configuration matching) of the main stage display device based on the received image data, and transmit the image data to the display device D1; if the matching is unsuccessful; In this case, the display device D0 directly transmits the image data to the display device D1, and the display device D1 repeats the above steps to configure display state information for the main display device.

FIG. 6 is a structural diagram showing a display device according to an embodiment of the present invention. The device shown in FIG. 6 is merely an example and is not intended to limit the functionality and scope of use of embodiments of the present invention.

Referring to FIG. 6, display device D includes a receiving module 111, a detection module 112, a processing module 113, and a configuration module 114.

The receiving module 111 receives image data provided from a host device or the preceding display device via an image transmission channel, and the image data includes configuration information.

The display device at the first stage receives image data provided from the host device via the image transmission channel, and the other display devices after the first stage receive the image data provided from the display device at the previous stage via the image transmission channel. Receive data.

In this embodiment, the host device encapsulates configuration information into data packets, encrypts the data packets according to a preconfigured encryption algorithm to form images or videos with a specific order, and creates an image transmission channel. to the display device D via the display device D. For example, the host device encapsulates configuration information into a 512-bit data packet, encrypts it with SHA-256 to generate a 256-bit hash value, and converts the data packet and hash value into an image or video. , to the display device D in video cycles of the high-speed bus according to a preconfigured transmission protocol.

Examples of transmission protocols include current or future video/audio transmission protocols such as Video Graphics Array (VGA), Digital Visual Interface (DVI), High Definition Multimedia Interface, HDMI (registered trademark)), Display Port (DP), V-by-one, etc., but are not limited to these.

The detection module 112 detects whether or not the image data received this time includes specified data, and if it is included, processes it based on the image data received this time, and if it is not included, it processes the display device. Reset to the initial state and wait for the next time to receive image data.

In this embodiment, the host device transmits identifiable unencrypted data over an image transmission channel, where the channel is referred to as a blind channel. The blind channel must be constantly monitored before the display device D at each stage decodes the received image data. If the blind channel detects that the image data received this time includes specified data, the display device D performs processing based on the image data received this time, and if the specified data is not detected, The display device D resets to its initial state and waits to receive image data next time.

Processing module 113 decodes the received image data. After the display device D passes the blind channel matching, it decodes the received iconography with SHA-256 and obtains information about the configuration type. If the decoding is successful and the configuration type is matched with the display device D, the configuration type is analyzed to obtain the parameters of the data packet and the configuration of the display device is completed based on these parameters.

Further, the image data provided from the image transmission channel includes pixel units of each row and corresponding row data of a plurality of groups, and the designated data is added to the row data of a first group in the row data of the plurality of groups. The configuration information is present in the row data of the second group among the row data of the plurality of groups.

The configuration module 114 realizes parameter configuration based on the configuration information obtained by decoding. The configuration types include at least a first configuration type (for example, a configuration of a device number) or a second configuration type (for example, a configuration of display state information of a device).

For example, for a number type configuration, the configuration module 114 first blocks the current image data from being transmitted subsequently to the subsequent display device D, decodes the image data, and if the decoding is successful, the configuration type It numbers the current display device based on the number of D, generates a new number corresponding to the subsequent display device D, encapsulates the new configuration parameters, encrypts it with a preconfigured encryption algorithm, and encrypts the new image data. and transmits new image data to the display device D at the subsequent stage.

Regarding the configuration of display state information, the configuration module 114 first blocks the current image data from being transmitted subsequently to the subsequent display device D, decodes the image data, and if the decoding is successful, determines its configuration type. It is determined whether or not the display device D is matched with the display device D of the main stage, and if it is matched, the display state information of the display device D of the main stage is configured based on the received image data, and the image data is transmitted to the display device D of the subsequent stage. If the image data is not matched, the display device at the main stage directly transmits the image data to the display device at the subsequent stage.

As mentioned above, in the parameter configuration method and the display device using the method and the display apparatus according to the embodiment of the present invention, the host device encodes the configuration type into the image data and transmits the configuration type to the cascaded display via the image transmission channel. and the cascaded devices decode the image data to obtain the configuration type and adjust the device number or device parameters based on the configuration type. Compared with the parameter configuration method in the conventional technology, it reduces the manufacturing cost of display devices, the number and display state of each cascaded device can be changed by the host device, and the configuration parameters are transmitted in the video cycle of the high-speed bus. This allows faster and more accurate device configuration.

The flowcharts and block diagrams in the accompanying drawings illustrate the architecture, functionality, and operation that may be implemented in systems, methods, and computer program products according to embodiments of the present disclosure. In this regard, each block in the flowchart or block diagram may represent a module, program segment, or portion of instructions, wherein said module, program segment, or portion of instructions implements a specified logical function. Contains one or more executable instructions to do so. In some superseded implementations, the functions noted in the blocks may occur out of the order noted in the drawings. For example, two consecutive blocks may be executed substantially in parallel, or even executed in reverse order, depending on the functionality involved. It should be noted that each block in the block diagrams and/or flowcharts, and combinations of blocks in the block diagrams and/or flowcharts, can be implemented with a dedicated hardware-based system that performs the specified functions or operations, or with dedicated hardware. It can also be implemented by a combination of and computer instructions.

Although each embodiment of the present disclosure has been described above, the above description is illustrative, not exhaustive, and is not limited to each disclosed embodiment. Many modifications and changes will be apparent to those skilled in the art without departing from the scope and spirit of the described embodiments. The terminology used herein best describes the principle, practical application, or technical improvement on the market of each embodiment, or allows one of ordinary skill in the art to understand the embodiments disclosed herein. selected as follows.

Claims (15)

A method for configuring a plurality of cascade-connected display devices, the method comprising:
The first stage display device receives image data provided from the host device via the image transmission channel, the image data including configuration information indicating a configuration type for the configuration of the display device. , and,
each stage display device other than the first stage display device receives image data provided from the previous stage display device;
obtaining the configuration information from the image data received by the display device of each tier by processing the image data received by the display device of the tier, by the display device of each tier;
obtaining parameters for configuring the at least one display device according to the configuration information obtained by the at least one display device;
Obtaining the parameters includes, if the configuration type indicated by the configuration information is a first configuration type for a configuration of a number of display devices, the image data received at the at least one stage of display devices; The number information of the at least one display device is configured in accordance with the number information of the at least one display device, the number information of the subsequent display device is generated, and the number information is provided to the subsequent display device in accordance with the number information of the subsequent display device. A configuration method comprising: generating the updated image data. Before the display devices of each stage respectively process the received image data, the configuring method includes:
In the at least one display device, whether the currently received image data includes specified data for indicating whether or not the at least one display device should process the received image data. Detect the
If included, the at least one display device performs processing based on the currently received image data;
2. The configuration method of claim 1, further comprising waiting to receive image data next time if not included. 3. The configuration method according to claim 2, wherein the configuration information is identifiable unencrypted data. The image data provided from the image transmission channel includes a plurality of groups of row data, each corresponding to a row of pixel units in a display device of a corresponding stage, and the designated data is the first row data in the plurality of groups of row data. 3. The configuration method according to claim 2, wherein the configuration information is present in one group of the row data, and the configuration information is present in a second group of the row data in the plurality of groups of row data. the configuration type includes at least the first configuration type or a second configuration type for configuration of display state information of a display device;
If the configuration type obtained by the at least one display device is the second configuration type, the at least one display device transmits the received image data to the subsequent display device. The configuration method described in Item 1. the step of generating image data to be provided to the subsequent display device based on number information for the subsequent display device;
2. The configuration method according to claim 1, further comprising converting number information for the subsequent display device into a data packet and encrypting the data packet so as to obtain image data to be provided to the subsequent display device. When the configuration type obtained by the at least one stage display device is the second configuration type, the at least one stage display device transmitting the received image data to a subsequent stage display device comprises:
determining whether the second configuration type is matched with the at least one display device, and if matched, configuring display state information for the at least one display device based on the received image data; 6. The configuration method of claim 5, further comprising: A receiving module for receiving image data provided from a host device or a preceding display device via an image transmission channel, wherein the image data includes configuration information indicating a configuration type for a configuration of the display device. a receiving module;
a processing module for processing the received image data;
a configuration module for configuring parameters based on the configuration information obtained through processing;
If the configuration type indicated by the configuration information is a first configuration type for the configuration of the number of the display device, the number information of the display device is configured according to the received image data, and the number information of the display device is configured in accordance with the received image data, and number information is generated, and the updated image data to be provided to the subsequent display device is generated according to the number information of the subsequent display device. detecting whether the currently received image data includes specified data for indicating whether the display device should process the received image data;
If it is included, it will be processed based on the image data received this time,
9. The display device of claim 8, further comprising a detection module that waits to receive image data next time if not included. 10. The display device of claim 9, wherein the specified data is identifiable unencrypted data. The image data provided from the image transmission channel includes a plurality of groups of row data, each corresponding to a row of pixel units in a display device of a corresponding stage, and the designated data is the first row data in the plurality of groups of row data. 10. The display device of claim 9, wherein the row data of a group includes the configuration information, and the configuration information resides in the row data of a second group of the plurality of groups of row data. 9. The display device of claim 8, wherein the configuration type includes at least the first configuration type or a second configuration type for configuration of display state information of the display device. The display device according to claim 8, wherein the configuration module converts number information for the subsequent display device into a data packet and encrypts the data packet so as to obtain image data to be provided to the subsequent display device. . if the configuration type is the second configuration type, the configuration module determines whether the second configuration type is matched with the display device;
If matched, configuring display state information of the display device based on the received image data, and transmitting the received image data to the subsequent display device;
The display device of claim 12, wherein if the received image data is not matched, the received image data is transmitted to the subsequent display device. A display device comprising a display screen formed by cascading a plurality of display devices according to any one of claims 8 to 14.